PLEASE SHOW ACCURATE STEP-BY-STEP SOLUTION
PLEASE SHOW ACCURATE STEP-BY-STEP SOLUTION Question 2"7 The 0.5 lb pellet is pushed against the spring...
Problem 6.5 A 0.4 lb pellet is released from rest at A when the spring is compressed 2 in. and travels around the loop ABCDE. Determine the smallest value of the spring constant [Ib/in] for which the pellet will travel around the loop and will at all times remain in contact with the loop. System parameters LAB 16 in and r-8 in. AB 06: What is the smallest value of the s pring constant [Ib/in] for which the pellet will...
7: A 60-kg box is placed against a uniform spring with a spring constant (k) of 3300 N/m The box is pushed to the right so it compresses the spring 25-cm. When the box is released, it is propelled to the left. (a) What is the velocity of the box as it slides along the flat surface to the left after it loses contact with the spring? 350 (b) How far up the ramp will the box slide while coming...
A 2-kg block is pushed against a spring with spring-constant k 512 N/m, compressing it 0.25 m. When the block is released, it moves along a frictionless, horizontal surface and then up a frictionless incline with slope 53.1° (a) What is the speed of the block as it slides along the horizontal surface after having left the spring? (b) How far does the block travel up the incline before starting to slide back down?
a 2 kg block A is pushed up against a spring compressing it a distance x=0.107 m. The block is then released from rest and slides down the 20° incline until it strikes a 1-kg sphere B that is suspended from a 1 m inextensible rope. The spring constant k=800 N/m, the coefficienct of friction between A and the ground is 0.2, the distance A slides from the unstretched length of the string is d=1.5, and the coefficient of restitution...
PLEASE SHOW ACCURATE STEP-BY-STEP SOLUTION. Question 29 A pulley weighing 12 1b and having a radius of gyration of 8 in. is connected to two blocks as shown. Assuming no axle friction, determine the angular acceleration of the pulley and the acceleration of each blochk. 10 in 6 in. 5 lb 10 lb
6. Consider a horizontal spring with spring constant k. A block with mass m is pushed far to the left against the spring until the spring is compressed a distance r relative to its relaxed length. A second block, which is stationary and also has a mass m, is located to the right of the spring im rrm a) We release the first block from rest. Due to the force from the spring, it slides to the right and eventually...
6. Consider a horizontal spring with spring constant k. A block with mass m is pushed far to the left against the spring until the spring is compressed a distance r relative to its relaxed length. A second block, which is stationary and also has a mass m, is located to the right of the spring im rrm a) We release the first block from rest. Due to the force from the spring, it slides to the right and eventually...
Problem 2 A 0.5-kg block is pressed a distance d against a horizontal spring of constant 800 N/m. The block sits on a frictionless horizontal surface When the block is released from rest, it slides along the surface, its speed is 1.6 m/s when it leaves the spring (a) Calculate distance d. 4 cm Suppose that the sliding block (speed 1.6 m/s) crosses a rough section of the surface. The leugth of the section is 1m. The block has a...
Please answer the question accurately and provide step by step solution QUESTION 2 FULL SCORE 20 POINTSA concentrated force F acts on a block of weight W placed on a rough horizontal plane. Knowing that W 100 N. F 150 N. 0.2, determine whether the block is at _ _ _ _ _ _ _ θ 50° , n:03, and μ, rest, and find the value of the friction force.
1. (30 points) A 2-kg block A is pushed up against a spring compressing it a distance r-0.1 m (i.e., the spring is unattached to the block). The block is then released from rest and slides down the 20° incline u it strikes a 1-kg sphere B that is suspended from a 1-m inextensible rope. The spring constant 800 N/m, the coefficient of friction between A and the ground i length of the spring d-1.5, and the coefficient of restitution...